High-level step-up converter project that uses the MC34063A family to boost an input supply to a regulated output voltage for general DC power conversion and evaluation.
A precise stepper motor controller using the RP2350A MCU (Raspberry Pico 2) and L297/L298N drivers for two-phase bipolar motors. Great for robotics and automation applications.
#RP2350 #Pico2 #StepperMotorDriver #L297 #L298N #Robotics #Automation #MotorControl
This project is a WiFi RF-ID Lock, which uses a Espressif ESP-8684 microcontroller for WiFi connectivity and a Handson Technology RC522 for RF-ID functionality. It also includes an OLED display and user control via a switch. A step-up power converter ensures consistent 3.3V power.
#WiFi #MCU #ReferenceDesign #project #ESP8684 #lock #OLED #referenceDesign #simple-embedded #espressif #template #reference-design
Designing a control board for a smart vending machine. Board will house an ESP32, AC and DC power supply, terminal port for stepper motor, MG990 servo motor, SIM7200 GSM module, 2004 LCD screen.
This project appears to be a power supply circuit using the TPS54331 step-down (Buck) converter from Texas Instruments. The target output voltage is 3.3V. It also features electromagnetic interference (EMI) mitigation components such as an inductor, capacitors and a diode. An LED is included for indication purposes. #Buck #TPS54331
#project
This LT3473-based reference design is a step-up voltage regulator, converting a lower input voltage to a stable 16V output. Ideal for applications requiring a regulated 16V supply. #referenceDesign #project #stepUp #voltageRegulator #16V #LT3473 #LT3473EDD#PBF #referenceDesign #powermanagement #analogdevices #template #reference-design #polygon
This project is a WiFi RF-ID Lock, which uses a Espressif ESP-8684 microcontroller for WiFi connectivity and a Handson Technology RC522 for RF-ID functionality. It also includes an OLED display and user control via a switch. A step-up power converter ensures consistent 3.3V power.
#WiFi #MCU #ReferenceDesign #project #ESP8684 #lock #OLED #referenceDesign #simple-embedded #espressif #template #reference-design
Industrial Raspberry Pi CM4/CM5-compatible carrier for PoE-powered inspection image capture and cryptographic signing with TPM, RTC, CSI camera, Ethernet, and three TMC2209 stepper axes.
This project is a WiFi RF-ID Lock, which uses a Espressif ESP-8684 microcontroller for WiFi connectivity and a Handson Technology RC522 for RF-ID functionality. It also includes an OLED display and user control via a switch. A step-up power converter ensures consistent 3.3V power.
#WiFi #MCU #ReferenceDesign #project #ESP8684 #lock #OLED #referenceDesign #simple-embedded #espressif #template #reference-design
This is a smart blind control system reference design designed to automate the operation of window blinds. It utilizes an ESP32 microcontroller for managing control signals and an A4988 stepper motor driver to control blinds' movement. It also includes USB interfacing and LED feedback.
#referenceDesign #edge-computing #edgeComputing #espressif #template #blind #DC #motor #servo #esp32 #reference-design
This is a smart blind control system reference design designed to automate the operation of window blinds. It utilizes an ESP32 microcontroller for managing control signals and an A4988 stepper motor driver to control blinds' movement. It also includes USB interfacing and LED feedback.
#referenceDesign #edge-computing #edgeComputing #espressif #template #blind #DC #motor #servo #esp32 #reference-design
ESP32 tabanlı Wi‑Fi/Bluetooth bağlantılı, 4 adet step motor sürücüsünü kontrol edecek motor kontrol kartı. Motor gerilimi/akımı ve besleme mimarisi netleşince sürücü ve güç katı seçilecek.
The step-down module is equipped with a LM2596 regulator and allows input voltages between 3 and 40 V to an adjustable output voltage from 1.5 to 35 V.
This project involves designing a DC-DC buck converter circuit to efficiently step down a 12V input voltage to a stable 5V output voltage. The converter is suitable for various electronic applications requiring 5V DC supply from a 12V source.
This project involves designing a DC-DC buck converter circuit to efficiently step down a 12V input voltage to a stable 5V output voltage. The converter is suitable for various electronic applications requiring 5V DC supply from a 12V source.
![[Example] Simulation of Types of Transformers](https://img-cdn.flux.ai/eyJidWNrZXQiOiJncmF2aXRvbi1lbGVjdHJpYy1zeW1ib2xzIiwia2V5IjoiZG9jdW1lbnRfYXNzZXRzL3NpbXVsYXRlZDFfdGh1bWJuYWlsLTMwYjkyNGU4LTRhZTUtMWRlZS1lN2VjLWE4NzM1ZTU5ZTZmMi5wbmciLCJlZGl0cyI6eyJyZXNpemUiOnsid2lkdGgiOjY0LCJoZWlnaHQiOjY0LCJmaXQiOiJjb250YWluIiwiYmFja2dyb3VuZCI6eyJyIjowLCJnIjowLCJiIjowLCJhbHBoYSI6MH19fSwib3V0cHV0Rm9ybWF0Ijoid2VicCJ9)
